Composite Cucurbita pepo plants with transgenic roots as a tool to study root development

Background and Aims

In most plant species, initiation of lateral root primordia occurs above the elongation zone. However, in cucurbits and some other species, lateral root primordia initiation and development takes place in the apical meristem of the parental root. Composite transgenic plants obtained by Agrobacterium rhizogenes-mediated transformation are known as a suitable model to study root development. The aim of the present study was to establish this transformation technique for squash.

Methods

The auxin-responsive promoter DR5 was cloned into the binary vectors pKGW-RR-MGW and pMDC162-GFP. Incorporation of 5-ethynyl-2′-deoxyuridine (EdU) was used to evaluate the presence of DNA-synthesizing cells in the hypocotyl of squash seedlings to find out whether they were suitable for infection. Two A. rhizogenes strains, R1000 and MSU440, were used. Roots containing the respective constructs were selected based on DsRED1 or green fluorescent protein (GFP) fluorescence, and DR5::Egfp-gusA or DR5::gusA insertion, respectively, was verified by PCR. Distribution of the response to auxin was visualized by GFP fluorescence or β-glucuronidase (GUS) activity staining and confirmed by immunolocalization of GFP and GUS proteins, respectively.

Key Results

Based on the distribution of EdU-labelled cells, it was determined that 6-day-old squash seedlings were suited for inoculation by A. rhizogenes since their root pericycle and the adjacent layers contain enough proliferating cells. Agrobacterium rhizogenes R1000 proved to be the most virulent strain on squash seedlings. Squash roots containing the respective constructs did not exhibit the hairy root phenotype and were morphologically and structurally similar to wild-type roots.

Conclusions

The auxin response pattern in the root apex of squash resembled that in arabidopsis roots. Composite squash plants obtained by A. rhizogenes-mediated transformation are a good tool for the investigation of root apical meristem development and root branching.     

Plant development in long-term embryogenic callus lines of Cucurbita pepo

Embryogenic callus derived from pumpkin hypocotyl segments was induced and maintained for 15 years on MS medium supplemented with the auxins IBA (4.9 M), 2, 4-D (4.5 M) or IAA (5.7 M). On induction media continued embryo maturation and development of adult plants typically failed. Therefore, small embryogenic clumps and individually isolated embryos were subcultured two to four times on one of the conversion media: MS supplemented with 1.5% sucrose and (a) no hormone, (b) 2.9 M IAA, (c) 5.7 M IAA, (d) 11.4 M IAA, (e) 12 M IEt, (f) 3.8 M ABA or (g) 2% activated charcoal. The cell line and the kind of auxin used in the induction and maintenance medium, both had a marked influence on the development of plantlets. The best result was achieved with a line that has been induced and maintained for 15 years on MS with IBA. In the IBA line, out of 100 embryos, 77 developed into plantlets on MS medium supplemented with 11.4 M IAA.Abbreviations IAA indole-3-acetic acid - IBA indole-3-butyric acid - BA 6-benzylaminopurine - ABA abscisic acid - 2, 4-D 2, 4-di-chlorophenoxyacetic acid - IEt indole-3-etha-nol - MS Murashige and Skoog (1962) medium     

Autoradiographic and ultrastructural study of Cucurbita pepo root cells during their growth and differentiation

Summary Cortex cells of the root meristem of Cucurbita pepo (0.0–0.5 mm from the cap junction), in the 3–4, 5–6 and 7–8 mm segments above the root tip, and the cells of the first three layers of lateral part of root cap were the object of the present study. The volume of cortex cells increases more than 20 times in the 7–8 mm segment as compared with meristematic cells, and the volume of cytoplasm about sevenfold. The largest increment of the cytoplasmic volume occurs between 0.5–6.0 mm. In consecutive root segments the sustained increase of the volume of nuclei takes place. By applying autoradiography the following processess have been investigated: DNA synthesis (³H thymidine uptake), template activity of DNA (³H actinomycin D(³H AMD)-binding), RNA synthesis (³H uridine incorporation), and protein synthesis (³H leucine). In the root cap cells and in segments where meristematic activity is over, DNA is replicated by endomitosis. On the basis of nuclear labelling it appears that nuclei in the 3–4 mm segment reach 4C ploidy state, but in the 7–8 mm segment half of the nuclei reach the 8C ploidy state. Most of the root cap cells are 4C, the remaining cells are 8C. Considering the uptake of ³H thymidine into nucleoli one may suppose that in the root cap cells nucleolar DNA is underreplicated, and to a lesser degree in 5–6 and 7–8 mm segments, while in 3–4 mm segment DNA is overreplicated as compared to meristem cells. Measurements of nucleolar volume, ³H uridine uptake, ³H AMD binding and quantity of granular component, indicate that the most noticeable nucleolar activity takes place in meristematic zone and in root parts showing the highest increase of cytoplasmic volume (3–4 and 5–6 mm segments). ³H leucine is still incorporated intensely into 7–8 mm segment, in which the concentration of ribosomes is low, however they are present in the form of polysomes. Comparison of ³H thymidine uptake into nuclear DNA with ³H AMD binding and ³H uridine incorporation into nuclei indicates that endomitotic DNA replication results in an increase of DNA template activity in root cap cells as well as in 3–4 and 5–6 mm segments; in the 7–8 mm segment binding of ³H AMD slightly decreases, while ³H uridine incorporation is considerably reduced. Divergence between the ploidy state, ³H AMD binding and ³H uridine incorporation can be due to the increment of the condensed chromatin area in differentiated cells. Plastids and mitochondria reach full maturity in 3–4 mm segment. The increasing volume density of ER and diminishing volume density of Golgi structures is accompanied by differentiation of cortex cells.This work was partly supported by Polish Academy of Sciences, Botanical Committee, Grant 217/II     

Leaf development and phloem transport in Cucurbita pepo: Carbon economy

Summary Net photosynthesis, dark respiration and growth for leaf 5 of Cucurbita pepo L. plants grown under controlled conditions were measured and the data used for an assessment of the changes in carbon balance during growth of the leaf through expansion to maturity. The blade is first capable of net CO₂ fixation when ca. 8% expanded but the initial rapid growth during this period is sustained almost entirely through imported nutrients. When the growth rate starts to decline rapidly the net photosynthetic capacity of the blade begins to increase. This increase is accompanied by an expansion of the intercellular spaces and by decreasing dark respiration measured at night and in dark periods during the day. The blade becomes completely independent of phloem imported nutrients and begins to export excess photosynthate when the phase of rapid decrease in relative growth rate is almost complete at about 45% expansion. Maximum net photosynthesis of ca. 11 mg CO₂ h^-1 dm^-2 is achieved at 70% expansion. The first detectable synthesis of the transport sugars stachyose and raffinose in the blade coincides with the beginning of intralaminar phloem transport from the tip to the base of the leaf. The synthesis of sucrose, the other major transport sugar, is detectable at all stages of leaf development.     

Haploid plantlets derived by anther culture of Cucurbita pepo

This work was conducted to study the effect of sucrose and 2,4-D combinations on induction of haploid plants of a summer squash cultivar through anther culture; therefore, sucrose was used at 30, 60, 90, 120 and 150 g l⁻¹and 2, 4-D was used at 0.1, 1.0, 2.5 and 5.0 mg l⁻¹on solid MS anther culture medium. Anthers at the mid or late uninucleate microspore stage without filament were excised from sterilized buds and plated on 20 different induction media. The most plantlets resulted from the induction medium supplemented with 150 g l⁻¹sucrose and 5 mg l⁻¹2, 4-D. Root tips from 20 plantlets were cytologically examined under a light microscope. The results revealed ten diploid (2n>= 2x= 40) and ten haploid (2n= x= 20) plants. This revised version was published online in June 2006 with corrections to the Cover Date.     

Leaf development and phloem transport in Cucurbita pepo: Maturation of the minor veins

Summary Young leaves of Cucurbita pepo L. were examined by whole-leaf autoradiography and serial paradermal sections were examined by light microscopy to determine whether commencement of sugar export depends upon the minor vein phloem achieving structural maturity. Maturation of these veins develops progressively from the largest toward the smallest elements with the minor veins in the distal region of the leaf maturing before those in the proximal region. Commencement of sugar export is coincident with maturation of the abaxial phloem of the minor veins delimiting the areoles. The abaxial phloem elements of the larger minor veins, which are probably capable of vein loading too but border only relatively few areoles, mature before export starts. The adaxial phloem surrounding the areoles and the xylem elements, mature in advance of the abaxial phloem and well before the beginning of sugar export. It is therefore considered unlikely that structural development alone directly governs the initiation of export. The results suggest that some other rate controlling step is involved.     

Embryoid formation by fragments of cotyledons and hypocotyls in Cucurbita pepo

Summary After a prolonged culture on Murashige-Skoog medium the primary explants of hypocotyls and cotyledons of the pumpkin develop embryoid-producing callus tissue. Ten separate strains of such tissue have been obtained and have now been in culture for more than one year, continuing to produce embryoids.     

日本迷你南瓜的组织培养及快速繁殖

1植物名称日本迷你南瓜(Cucurbitapepo),日文名为プツチィ一二,英文名为Puccini. 2材料类别带节茎段、子叶苗茎尖. 3培养条件基本培养基为改良MS(2倍FeSO4·7H2O和KH2PO3).芽诱导培养基:(1)改良MS 6-BA 1.0mg·L-1(单位下同),(2)改良MS 6-BA 1.0 NAA 0.1;增殖继代培养基:(3)改良MS 6-BA 0.8 IBA 0.05;壮苗培养基:(4)改良MS 6-BA 0.2;生根培养基:(5)1/2改良MS IBA0.6,(6)1/2改良MS NAA0.6.培养基中均添加绵白糖3%、琼脂粉0.6%,pH 6.0.培养温度为(25±2)℃,光照度2 500～3 000 lx,光照时间为14 h·d-1.     

Effect of hydrogen peroxide on the uptake of chlordane by Cucurbita pepo

Background and aims

Plant species can have a major effect on erosion dynamics and soil losses by retaining sediment transported during concentrated runoff. Identifying plant functional traits that influence and predict a species ability for sediment trapping is therefore of great interest, especially to improve management and restoration of degraded lands.

Methods

Sediment trapping ability of four morphologically contrasted species, the broadleaf species Buxus sempervirens and Lavandula angustifolia, and the coniferous species Juniperus communis and Pinus nigra, were investigated with flume experiments. Six functional traits describing stem, leaf and the overall plant morphology, were measured on seedlings. Analyses were performed to compare species efficiency in sediment trapping and to identify traits related to the amount of sediment trapped.

Results

Sediment trapping (RTS) was the highest upslope of Lavandula and the lowest upslope of Juniperus. Principal component analysis showed that RTS was best correlated (positively) with canopy density, described by plant biomass and leaf area per unit volume of plant. Leaf area and plant roundness were also positively related to RTS but to a lesser extent.

Conclusions

The results of this experimental study suggest that canopy completeness, leaf morphology and plant shape influence sediment retention by plants. Such knowledge may improve the diagnosis of land vulnerability to erosion and the prediction of ecosystem functioning after ecological restoration by the construction of bioengineering works in gully floors.     

Leaf development and phloem transport in Cucurbita pepo: Transition from import to export

Summary The capacity of a growing leaf blade of Cucurbita pepo L. to import ¹⁴C-labelled photoassimilate is lost in a basipetal direction. Import into the lamina tip stops when the blade is 10% expanded. Development of the leaf progresses linearly with time and the lamina base stops importing when the blade is 45% expanded. Export capacity also develops basipetally and follows immediately the loss of import capacity, at least in the lamina base. The small amount of material initially exported from the leaf tip is redistributed to the still-importing leaf base, delaying export from the lamina until the blade is 35% expanded. Loss of import capacity by the petiole is both basipetal and dorsoventral. The proximal, adaxial portion of the petiole is the last region to cease importing ¹⁴C. Leaves of Beta vulgaris L. and Nicotiana tabacum L. also lose import capacity in a basipetal direction.     

Phosphoenolpyruvate carboxykinase and gluconeogenesis in cotyledons of Cucurbita pepo

1. The aim of this work was to investigate the role of phosphoenolpyruvate carboxykinase (ATP:oxaloacetate carboxy-lyase (transphosphorylating) EC 4.1.1.49) in the conversion of fat to sugar by the cotyledons of seedlings of Cucurbita pepo. 2. The enzyme was partially purified from the cotyledons of 5-day-old seedlings. The Michaelis constants for oxaloacetate and ATP were 56 and 119 micron, respectively. The decarboxylation reaction was optimum at pH 7.4. A range of intermediary metabolites did not affect the activity of the enzyme, but 3-mercaptopicolinic acid at micron concentrations was an effective inhibitor. 3. Centrifugation of extracts of 5-day-old cotyledons sedimented appreciable proportions of the ribuloseibisphosphate carboxylase, isocitrate lyase and fumarate hydratase present but very little of the phosphoenolpyruvate carboxykinase. 4. Measurements of phosphoenolpyruvate carboxykinase of cotyledons during germination showed that the maximum catalytic activity exceeded, and changed coincidently with, the rate of gluconeogenesis. 5. 3-Mercaptopicolinic acid inhibited gluconeogenesis from [1-14C]- and [2-14C]acetate supplied to excised cotyledons. The detailed distribution of 14C indicated inhibition of the conversion of oxaloacetate to phosphoenolpyruvate. 6. It is concluded that in marrow cotyledons phosphoenolpyruvate carboxykinase is in the soluble phase of the cytoplasm and catalyses a component reaction of gluconeogenesis.     

Relationship between the activity of the orotic acid pathway and glucose content of roots of Cucurbita pepo

Abstract. Apical 3-cm root segments excised from 2-d-old squash seedlings ( Cucurbita pepo L. cv. Early Prolific Straightneck) that were germinated and grown between sheets of paper towelling moistened with H₂O₂ incorporated 144±10 nmol (± SE. n = 15) NaH¹⁴CO₃ into uridine nucleotides (∑UMP) per gram intact roots during the 3-h incubation period ( Lovatt, Albert & Tremblay, 1979 ). Continued culture of squash seedlings in this manner for an additional 24 or 48 h had no effect or slightly increased (30%) the activity of the orotic acid pathway. However, transfer of 2-d-old seedlings to Shive's nutrient solution reduced the activity of the orotic acid pathway within 15 h to 2.3 nmol NaH¹⁴CO₃ incorporated into ∑UMP per gram apical 3-cm root segments during the 3-h incubation period. The observed decrease in capacity to synthesize pyrimidine nuclotides de novo paralleled the reduction in glucose content of the roots and was reversed by supplying glucose during hydroponic culture in Shive's nutrient solution. Root elongation was not affected by the reduced activity of the orotic acid pathway nor by the decreased level of available glucose.     

Accumulation and phytotoxicity of engineered nanoparticles to Cucurbita pepo

The effect of bulk and engineered nanoparticle (NP) Ag, Au, Cu, Si, and C at 250 and 750 mg/L on zucchini biomass, transpiration, and element content was determined. The pH of bulk and NP solutions prior to plant growth frequently differed. Nanoparticle Cu solution pH was significantly higher than bulk Cu, whereas for Ag and C, the NPs had significantly lower pH. Plants were unaffected by Au, regardless of particle size or concentration. NP Ag reduced plant biomass and transpiration by 49-91% compared to equivalent bulk Ag. NP Si at 750 mg/L reduced plant growth and transpiration by 30-51% relative to bulk Si. Bulk and NP Cu were phytotoxic but much of the effect was alleviated by humic acid. The shoot Ag and Cu content did not differ based on particle size or concentration. The accumulation of bulk Au was greater than the NP, but humic acid increased the accumulation of NP and bulk Au by 5.6-fold and 80%, respectively. The uptake of NP Si was 5.6-6.5-fold greater than observed with the bulk element. These findings show that the NPs may have unique phytotoxicity or accumulation patterns and that solution properties can significantly impact particle fate and effects.     

Development and Ultrastructure of Cucurbita pepo Nectaries of Male Flowers

The development of the nectary of the male flower ofCucurbitapepo L. was studied from 5d before to 2d after anthesis. Thenectary consists of parenchyma that stores starch in the presecretorystages, and epidermis. An hour before nectar secretion begins,the starch is hydrolyzed. The nectar exudes from the stomataand forms a continuous layer on the nectary surface. Duringanthesis the nectar may all be collected by pollinators or someor all of it may remain in the nectary and be successively resorbed.The nectary parenchyma stores material for synthesizing thesugar component of nectar and stores similar material againafter nectar resorption. It is also responsible for nectar productionand secretion. The epidermis is actively involved in the reabsorptionprocess. The resorption of nectar is a phenomenon that allowsthe plant to recover invested energy. Few observations on thisphenomenon have hitherto been published. Amyloplasts; Cucurbita pepo L.; courgette; nectaries; Nectar resorption; plastid; secretion; starch     

Metabolic alterations in cotyledons of Cucurbita pepo infected by cucumber mosaic virus

Changes in the capacities of enzymes in various metabolic pathwayshave been measured during infection of cotyledons of Cucurbitapepo L. with cucumber mosaic virus (CMV). Starch accumulationand low sucrose content, which are characteristic of the earlystages of infection, are reversed in the later stages of infection.The decline in starch correlated with a reduced capacity forstarch synthesis (ADP-glucose pyrophosphorylase) and a risein the capacity for starch degradation (total starch hydrolase,starch phosphorylase). ¹⁴CO₂ feeding experiments, conductedat saturating CO₂ concentration, show that the newly-assimilatedcarbon was lost at a lower rate from infected cotyledons andless was incorporated into structural carbohydrates, phosphorylatedintermediates plus organic acids, more into soluble sugars,amino acids and proteins. At a later stage of infection therewere dramatic increases in respiratory capacity and a substantialalteration of carbohydrate metabolism. The infection had a largestimulatory effect on the capacity for oxidative pentose-phosphatepathway (glucose-6-phosphate dehydrogenase, 6-phospho-gluconatedehydrogenase), glycolysis (ATP- and pyrophosphate-dependentphosphofructokinases), tri-carboxylic acid cycle (isocitratedehydrogenase, fumarate hydratase), anaplerotic reactions (NAD-dependentmalic enzyme, phosphoenolpyruvate car-boxylase) and oxidativeelectron transport (cytochrome c oxidase). While there wereno overall changes in photosynthetic rate (measured in saturatingCO₂), infection either reduced (Rubisco and glycerate kinase)or did not affect (chloroplastic fructose bis-phosphatase andhydroxypyruvate kinase) the capacities of the photosyntheticcarbon reduction pathway or the photosynthetic carbon oxidationpathway. Key words: Plant-virus interaction, sucrose, starch, enzymes, ¹⁴CO₂ incorporation, O₂ flux     

Chromosome constitution and nucleolar behaviour in the endosperm of Cucurbita pepo L

At early stages of development the endosperm of Cucurbita pepo L. was found to be triploid with 3n=60. Higher levels of ploidy (6n, 12n, 24n, 48n) were encountered at later stages. The euploid increase in chromosome number is the result of endopolyploidy. The volume of the nucleolus increased with the increase in nuclear volume. Cells with varying numbers of nucleoli of different sizes and shapes were observed in the endosperm at all stages. Fragmentation of the nucleolus is believed to be responsible for the increase in nucleolar number. Signs of nuclear disorganisation in the endosperm were visible from the 17th day onwards. As the endosperm tissue gets absorbed by the developing embryo, the mature seed is non-endospermous.     

Filament formation in vitro of a sieve tube protein from Cucurbita maxima and Cucurbita pepo

Summary Phloem proteins of the sieve tube exudate from Cucurbita maxima Duch. and Cucurbita pepo L. were investigated as to their filament forming ability in vitro. From the two main proteins (116000 dalton, 30000 dalton) only the 116000 dalton protein was found to form reversibly distinct filaments of 6–7 nm diameter upon removal of SH-protecting agents from the buffer, whereas the 30000 dalton protein was precipitated as amorphous material under these conditions. The protein filaments were similar to the filaments ocurring within the sieve tube cells in vivo.Abbreviations SDS sodium dodecyl sulfate - TCA trichloroacetic acid     

Somatic embryogenesis in pumpkin (Cucurbita pepo L.): control of somatic embryo development by nitrogen compounds

Embryogenic cultures of pumpkin (Cucurbita pepo L.) were initiated from mechanically wounded mature zygotic embryos on 2,4-D-containing MS medium, and on hormone-free, semisolid modified MS medium containing NH4Cl as the sole source of nitrogen. The habituated line was derived from the embryogenic tissue induced with 2,4-D and maintained on medium without growth regulators. Sustained subculturing of the three embryogenic lines on a medium with NH4Cl as the sole source of nitrogen enabled the establishment of highly uniform cultures in which no further development into mature embryo stages occurred. The tissue consisting of proembryogenic globules or globular stage embryos was maintained, without decline, for over six years. Globular embryos proceeded to maturity when a combination of reduced (NH4) and unreduced (NO3) forms of nitrogen was provided in the medium. Different nitrogen sources in the medium caused changes of medium pH during subculture in the pH range of 4.0-6.5. The tissue growth and embryo development were blocked on medium with pH adjusted and stabilized at 4.0 or at 3.2.     

Dark fixation of CO2 during gluconeogenesis by the cotyledons of Cucurbita pepo L.

We did this work to discover the pathway of CO₂ fixation into sugars in the dark during gluconeogenesis by the cotyledons of 5-day-old seedlings of Cucurbita pepo L. We paid particular attention to the possibility of a contribution from ribulosebisphosphate carboxylase. The detailed distribution of ¹⁴C after exposure of excised cotyledons to ¹⁴CO₂ in the dark was determined in a series of pulse and chase experiments. After 4s in ¹⁴CO₂, 89% of the ¹⁴C fixed was in malate and aspartate. In longer exposures, and in chases in ¹²CO₂, label appeared in alanine, phosphoenolpyruvate, 3-phosphoglycerate and sugar phosphates, and accumulated in sugars. The transfer of label from C-4 acids to sugars was restricted by inhibition of phosphoenolpyruvate carboxykinase in vivo by 3-mercaptopicolinic acid. We conclude as follows. Initial fixation of CO₂ in the dark is almost entirely into phosphoenolpyruvate, probably via phosphoenolpyruvate carboxylase (EC 4.1.1.31) which we showed to be present in appreciable amounts. Incorporation into sugars occurs chiefly, if not completely, as a result of randomization of the carboxyl groups of the C-4 acids and subsequent conversion of the oxaloacetate to sugars via the accepted sequence for gluconeogenesis. Ribulosebisphosphate carboxylase appears to make very little contribution to sugar synthesis from fat.